DE3210094C2 - Composition for molding body parts consisting of a silicone - Google Patents

Abstract

A mass for molding body parts, which consists of a silicone that is initially liquid or pasty or kneadable and solidifies rubber-like after a certain time by adding a hardener, compression-elastic hollow microspheres are added, the thin shell of which consists of a vinylidene chloride copolymer and the inside of which contains a gas. The hollow microspheres can either be preformed separately and then added to at least part of the silicone, or the hollow microspheres can be produced in situ in the silicone from compact particles of vinylidene chloride copolymer containing a blowing agent by stirring the compact particles into the cold silicone and then the silicone is heated to a temperature above 80 ° C.

Description

The invention relates to a mass for molding body parts, preferably for the production or Lining of dental prostheses, consisting of a silicone, which is initially liquid or pasty or kneadable solidifies like a rubber after a certain time when a hardener is added.

Such masses are used in dentistry for the production of an impression, as it is for Manufacture of prostheses is necessary, but also for the manufacture of relines for such prostheses, to adapt them to the changing jaw. Another field of application is orthopedics, where such masses also both for the production of an impression for the production of a prosthesis as can also be used as a leveling compound for adjusting a prosthesis.

The masses used so far consist of a silicone, which is initially liquid or pasty or kneadable and which solidifies like a rubber after a certain time when a hardener is added The term »silicone« is understood to mean synthetic polymeric compounds in which silicone atoms linked via oxygen atoms and the remaining valences of silicon are saturated by hydrocarbon radicals are. More information about such silicones can be found in Römpps Chemie-Lexikon, 7th edition / 1975, Frankch'sche Verlagshandlung W. Keller & Co, Stuttgart, Volume 5, Columns 3223 ff.

ίο The kneadable silicone masses customary today, which used in dentistry for the production of impressions have the disadvantage of high Density and poor flow behavior. The deformation must therefore take place with considerable pressure and there is still an imperfect fine impression, since these masses are not in small cavities able to penetrate. From this Gt ^ / ide become the kneadable silicone masses are also only used to make a preprint, which is still a correction requirement. For this purpose, a thin silicone impression material is appüziert on the preprint and then the The preprint produced is pressed again onto the place of the jaw to be taken. This means a double Harassment of the patient, who also comes into contact twice with the hardener, which one on the skin, especially on the mucous membranes, irritations can cause.

Working with the known mass is also difficult for the medical practitioner, because on the one hand this mass Must be knead-like so that it can be easily and quickly trowelled or pressed into the impression spoon and so that they do not get into the throat when printing flows, but on the other hand also the finest structures are molded should be. Since the mass must not be liquid, the incorporation of the hardener requires a lot of skill and strength, with the added fact that for this purpose There is little time available for the desired rapid hardening of the mass.

It is known to measure the weight of silicone impression materials by means of foamed polystyrene balls or to reduce by means of ground polystyrene foam. Since the polystyrene foam itself is not elastic, the addition of the same adversely affects the rubber properties of the silicone.

It has also been suggested the properties of silicone rubber by adding small balls of water glass, phenolic resin or other rigid ones or to change less flexible plastics. This mass is also not suitable for molding Parts of the body, as the properties of tensile and compressive elasticity required for this are not given. the added small balls are already by a pressure with which the volume of the mass around 12% is reduced in size, completely destroyed or remain deforms and does not reset itself after the pressure has been relieved.

It is also known the density of a silicone mass by means of a low-boiling liquid such as fluorinated hydrocarbons. in the In the undamaged state, however, this silicone mass is not elastic under pressure and it is not included in the molding process Pressure the foam together. In the crosslinked state, the compound also has poor compressive elasticity Properties because the propellant escapes from the pores after a short time.

A disadvantage of all molding compounds containing inorganic fillers is that they quickly Behave dilatantly movements. Through the DiIa-

dance freeze the crowds while moving, causing rapid transport is made more difficult, for example by a thin cross-section, and a short, jerky adaptation to a body part is made difficult.

From DE-PS 25 19 910 is also a pad, for. B. for shoes and orthopedic objects, known, the filling of pressure-elastic hollow microspheres different diameter is formed, the thin shell of which consists of polyvinylidene chloride, the micro-hollow spheres firmly and elastically connected to one another by means of a cross-linked polysulphide or polysiloxane are. The padding consists mainly of only the points of contact interconnected hollow microspheres, so that this padding has a sponge-like structure and has a low density. Cushions with such a filling slowly adapt to a certain one Shape of the body to be supported and it is also possible to make such an adaptation as often as desired to certain Make body shapes, these pads are reversibly compressible and provide elastic support guarantee. Such cushions are therefore light and guarantee comfortable support, the cushion filling is however as a mass that is suitable for the production or relining of dentures, not usable, because here it is necessary that the mass quickly adapts to the particular body shape and maintains the molded shape

The present invention has for its object to provide a mass _To molding of body parts, preferably for the manufacture of dental prostheses to provide, which avoids the disadvantages of the known materials of this type and the g -yünschten properties such as good flow properties under pressure to / amounting icfilStcF otTüKuifcn, ucSitZt

This object is achieved with the composition according to the invention according to claim 1 The invention is also a method for producing the compositions according to the invention according to one of the claims 3 or 4.

The mass according to the invention is a highly viscous, pasty or knead-like mass with a low density, the flow properties of which are significantly better under pressure than with the masses previously used. The inventive In the case of rapid movements, the mass is more thixotropic than dilatant, so that it can also easily be in can penetrate small cavities and therefore mold the finest structures. That fact will too explained by the fact that when the mass is pressed against body parts to be molded, the liquid components of the Mass reach the surface, i.e. this surface is enriched by low-viscosity silicone mass will. It is therefore, for example, when using the compound according to the invention as an impression compound for It is no longer necessary to manufacture dentures, after making a pre-print one more Make a fine impression. The mass according to the invention also has the desired compressive and tensile elasticity on, whereby they after their condensation or addition crosslinking, without giving way to the side can, under the same conditions, can reduce their volume under pressure similar to that in the liquid or kneadable state and when the pressure is released it resets itself almost completely spontaneously

Another advantage of the composition according to the invention is that less hardener is required for a certain hardening time, since less silicone is contained in the same volume of the composition, and that the hardener can be distributed more easily and quickly even in the kneadable state of the silicone, since the Hollow microspheres the internal friction of the mass is reduced.
The diameter of the micro hollow sphere !! is between 0.01 and 0.1 mm, with hollow microspheres of various diameters being added to the silicone. This has the advantage that the larger hollow microspheres recede from the surface under pressure and the smaller hollow microspheres are also able to penetrate into narrow and narrow cavities.

The hollow microspheres are the silicone in an amount between 10 and 85Vol .-%, preferably in one Amount between 20 and 50% by volume added. This corresponds to an admixture of about 1 to 8, preferably 1 to 4% by weight of hollow microspheres. Through an admixture from 1 to 8% by weight of hollow spheres, the density of a silicone mass is reduced by about 9 to 77%, thus, for example, from a value of 1.25 to a value between 1.14 and 03- According to the invention so many hollow microspheres added that the density the mass is between 0.4 and 0.8. Such an admixture also enables the Mass of up to 50% of the volume proportional hollow microspheres, without this in these microspheres trapped gas escapes, so that when the pressure is relieved, even with the unleased mass Volume practically completely back to the original volume A mass with a proportion of Hollow microspheres of 20% by volume can therefore be elastic by around 10% by volume even in the unmemined state be compressed.

An inventive method for producing the composition of the invention is that the Micro spheres made from a propellant containing Compact parts are preformed and added to at least part of the silicone. The one propellant containing compact particles or the resulting microspheres are in DE-OS 14 95 485 and in the magazine "Modem Plastics", August 1969, Described on page 55.

For the preparation of hollow microspheres used in the invention containing a blowing agent Kompaktteiichen of vinylidene chloride copolymer, in a water or water vapor-containing vessel is about Losec heated to a temperature above 80 ⁰ C, and then off. removed from the vessel and dried. It is also possible, however, to produce the hollow microspheres by enclosing compact parts made of vinylidene chloride copolymer containing a propellant in the presence of small amounts of water or steam or another substance that heats up in a high-frequency field in a thin-walled bag, preferably made of polyethylene, in a high-frequency field to be introduced where the micro-hollow spheres form as a result of the heating in the bag. A commercially available microwave oven, for example, can be used for this purpose.

Because the compacts are placed in a bag in the high-frequency field, they are The resulting hollow microspheres are packaged immediately and do not have to be filled into a packaging afterwards become, which because of the small dimensions and the low weight with great difficulty connected is.

To produce the composition according to the invention, the procedure according to the invention is such that a

5

Compact particles of vinylic mass containing propellant are used in dentistry and in orthodene chloride copolymers in the cold silicone. Temperature over 80 ⁰ C is heated, with the se for relining of prostheses. Will form the invented hollow microspheres in the silicone in situ. It is also possible according to the mass for relining or lining, for the production of the mass according to the invention preparation of prostheses, for example dental prostheses, initially at least a part of the silicone or the liquid is used, so is on the to be relined or external component of the mass to a temperature above the covered area of the prosthesis to heat a silicone adhesive agent -80 ° C and then a propellant is spread and then applied the inventive, retaining compact particles of vinylidene chloride copolymer not yet hardened mass The micro-hollow is then pressed against the body part in question to form spheres in situ. The formation of the hollow microspheres and allowed to harden, so that thereby the prosthesis takes place particularly quickly. In both cases, the mixture of silicone and this procedure is particularly beneficial for dentures, since compact particles containing propellant are water, here due to changes in the jaw, gum steam or some other high frequency and dgL very often an adaptation of a substance which heats the frequency field, preferably in a dental prosthesis that is already present, has to be carried out with the same weight as the compact particles. are added, this mixture being introduced into a high-frequency field, where the hollow microspheres form in situ. PVC powder, for example, can be used as another substance that heats up in a high-frequency field. After the formation of the hollow microspheres, the water can e.g. B. be removed by vacuum.

example 1

A paste-like to knead-like starting material made of silicone was made with 20% by volume of preformed hollow microspheres mixed, then crosslinked with 1.6% hardener, poured into a mold and removed after approx. 10 minutes After 24 hours the shrinkage of the demolded mass was approx. 0.7% linear. The hardness was approx. 25 Shore A.

For comparison, the same paste-like to putty-like starting material was made from silicone without the addition of hollow microspheres mixed with 2% hardener Put in a mold and removed from the mold after approx. 10 min. After 24 hours the linear shrinkage is 1.2%. The shore hardness remained essentially unchanged likewise the elastic properties of the mass, whereas the Compressive elastic properties in comparison with the mass containing hollow microspheres be reduced.

Example 2

100 g of silicone mass were mixed with 5 g of commercially available compact particles containing a propellant and 5 g Mixing water and putting it into a commercially available microwave oven with a power of 720 W. To The mass was removed from the microwave oven for about 4 minutes, with hollow microspheres being different in the silicone Diameter had formed in situ, which were evenly distributed over the whole mass. Of the The diameter of these hollow microspheres was somewhat smaller than the diameter used in Example 1 preformed hollow microspheres. The mass had a density before it was placed in the microwave oven of 1.25 and a viscosity of approx. 40,000 mPas, measured in the Brookfield viscometer (LV4, / 7 = 6 rpm), the finished mass with the hollow microspheres formed in situ had a density of 0.55 and a viscosity of about 100,000 mPa.s. This finished mass behaved became thixotropic and was easy to transport with pressure.

Preferred areas of application of the invention

Claims (5)

Patent claims: 1. Composition for molding body parts, preferably for the production or imfeeding of Dental prostheses, consisting of a silicone that is initially liquid or pasty or kneadable solidified rubber-like after a certain time by adding a hardener, with the silicone compression-elastic hollow microspheres of various diameters in the range between 0.01 and 0.1 mm are added, the thin shell of which is made of vinylidene chloride copolymer and the interior of which contains a gas, characterized in that that the hollow microspheres are added to the silicone in an amount between 10 and 85% by volume and the mass has a density between 0.4 and 0.8 2. Composition according to claim 1, characterized in that the hollow microspheres are the silicone in one Amount between 20 and 50% by volume are added. 3. A method for producing a mass according to any one of claims 1 to 2, characterized in that that a blowing agent-containing compact particles of vinylidene chloride copolymer in the cold Silicone are stirred in and that the silicone is then heated to a temperature above 80 "C. whereby the hollow microspheres are formed in situ in the silicone. 4. A method for producing a mass according to one of claims 1 to 2, characterized in that first at least part of the silicone or the liquid component of the mass is ^{heated to a temperature above 80 0} C and that then a blowing agent-containing compact particles of vinylidene chloride Copolymer are stirred into it, the hollow microspheres forming in situ. 5. The method according to claim 3 or 4, characterized in that the mixture of silicone and Drift center! containing compact particles water, steam or PVC powder, preferably in about the same amount by weight as the compact particles, is added and that this mixture in a high-frequency field is introduced.